JP2009037211A - Display device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a display device controlling luminance and color temperature, and a method for controlling the luminance and color temperature of the display device. <P>SOLUTION: The display device includes a display module, a light source, a light source driving circuit, a display driving circuit, and a sensor. The optical sensor is installed near the light source and detects the luminance and color temperature of the light source. The optical sensor is coupled to the display driving circuit and generates a feedback signal to the display driving circuit according to the luminance and color temperature of the light source. The display driving circuit receives an image signal, drives the display module to display an image and updates the data of the image signal according to the feedback signal to adjust the luminance and color temperature of the image. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a display device, and more particularly to a display device capable of controlling luminance and color temperature.

  Please refer to FIG. FIG. 1 is a diagram showing a conventional display device 10 having a luminance control function. The display device 10 includes a display module 11, a light source 12, a light source driving circuit 14, a display driving circuit 16, and an optical sensor 18. A plurality of sets of color temperature parameters, for example, 6500K or 9300K, are set in the display device 10, and when the light source 12 deteriorates, the color expression of the display device 10 is affected. The optical sensor 18 is installed around the light source 12 and is used to detect the luminance of the light source 12. The light sensor 18 is connected to the light source driving circuit 14 and generates a feedback signal FB to the light source driving circuit 14 based on the luminance of the light source 12. The light source 12 is a light emitting diode module. The light emitting diode changes the luminance of light emission by adjusting a driving voltage or current, and generates white light by a light source including a red diode, a green diode, and a blue diode. The light sensor 18 includes a red light sensor, a green light sensor, and a blue light sensor, and each sensing unit can detect the luminance of red light, green light, and blue light, so that the feedback signal FB is , Brightness parameters detected from red light, green light and blue light. Therefore, the light source driving circuit 14 adjusts the driving voltage or current based on the feedback signal FB and individually controls the emission intensity of the red diode, the green diode, and the blue diode, thereby stabilizing the color temperature of the display device 10. be able to.

  Therefore, in order to give a stable color temperature to the display device, in the conventional display device, a light sensor is installed around the light source, the brightness of the light source is detected in real time by the light sensor, and a feedback signal is generated, and The light source driving circuit adjusts the luminance of the light source based on this feedback signal. The ordinary light source includes a cold cathode tube and a light emitting diode module. Among them, the light emitting diode module generates white light by a light source composed of a red diode, a green diode, and a blue diode. The light emission luminance of the diode and the blue diode can be individually controlled. However, when a cold-cathode tube is used as the light source of the display device, the luminance of light emission can be changed only by adjusting the driving voltage or current. Therefore, the conventional display device having the above-described luminance control function emits light. The present invention can be applied to a display device using a diode module as a light source.

  An object of the present invention is to provide a display device capable of controlling brightness and color temperature and a method for controlling brightness and color temperature of the display device in order to solve the above-described problems.

  A display device according to an embodiment of the present invention includes a display module, a light source proximate to the display module, an optical sensor that detects the light source proximate to the light source, and generates at least one feedback signal, and the light A display driving circuit connected to a sensor for receiving the video signal and driving the display module to display the video on the display module, and adjusting data of the video signal based on the feedback signal; Including.

  According to an embodiment of the present invention, a method for controlling brightness and color temperature of a display device includes detecting the brightness and color temperature of the display device and generating at least one feedback signal, and based on the feedback signal. Updating the video signal data of the display device and adjusting the luminance and color temperature of the video displayed by the display device.

  The present invention also provides another display device capable of controlling brightness and color temperature. The display device is used to display an image, and includes a display module having a display surface, and an optical sensor that is installed on the display surface, detects the luminance and color temperature of the image, and generates at least one feedback signal A display that is connected to the optical sensor, receives the video signal, drives the display module to display the video on the display module, and adjusts data of the video signal based on the feedback signal A module driving circuit.

  The present invention provides a display device capable of controlling brightness and color temperature, and a method for controlling the brightness and color temperature of the display device.

  Next, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

  The following description of each embodiment has been made with reference to the accompanying drawings, and is used to show a specific embodiment in which the present invention can be implemented as an example. The directional terms mentioned in the present invention, eg, top, bottom, front, back, left, right, etc., are only for reference to the direction of the attached drawings. Thus, the directional terminology used below is used for explanation and is not intended to limit the present invention.

  Please refer to FIG. FIG. 2 is a diagram showing a first embodiment of the display device 20 of the present invention capable of controlling luminance and color temperature. The display device 20 includes a display module 21, a light source 22, a light source driving circuit 24, a display driving circuit 26, and an optical sensor 28. The optical sensor 28 is installed around the light source 22 and is used to detect the luminance and color temperature of the light source 22. The optical sensor 28 is connected to the display driving circuit 26 and generates a feedback signal FB based on the luminance and color temperature of the light source 22 and transmits the feedback signal FB to the display driving circuit 26. Since the display driving circuit 26 receives the video signal 29 and drives the display module 21 to display the video on the display module 21, the display driving circuit 26 receives the data of the video signal 29 received based on the feedback signal FB. The purpose of adjusting the brightness and color temperature of the image can be achieved. In the first embodiment, the display driving circuit 26 is connected to the optical sensor 28 and receives the feedback FB signal generated by the optical sensor 28, and the display driving circuit 26 has a gain value based on the feedback signal FB. Is updated, the material of the video signal 29 is updated. Therefore, even when the light source 22 is too bright or too dark, by compensating the video signal 29, the video displayed by the display module 21 can reach desired luminance and color temperature. This embodiment can be applied to a display device having a light source. For example, in the case of a liquid crystal display device, when the backlight module of the liquid crystal display device deteriorates, a feedback signal is generated by an optical sensor installed around the backlight module and transmitted to the display drive circuit, and the video signal 29 By updating the data, the brightness of the video can be improved and the lack of backlight can be compensated. Similarly, the present invention may be applied to a projector. In this case, when the light source of the projector is deteriorated, a feedback signal is generated by an optical sensor installed around the light source and transmitted to the data processing circuit. By updating the data of the signal 29, the luminance of the video can be improved and the shortage of the light source can be compensated.

  Please refer to FIG. FIG. 3 is a diagram showing a second embodiment of the display device 20 of the present invention capable of controlling luminance and color temperature. In the second embodiment, the optical sensor 28 is installed on the display surface of the display module 21 and is used to detect the luminance and color temperature of the video generated by the display module 21. Since the display driving circuit 26 is connected to the display driving circuit 26, the display driving circuit 26 receives the feedback signal FB generated by the optical sensor 28, calculates the gain value based on the feedback signal FB, and updates the data of the video signal 29. be able to. The present embodiment may be applied to a liquid crystal display device or a plasma display device, and adjusts the data of the video signal 29 by detecting the luminance and color temperature of the display device.

  Please refer to FIG. FIG. 4 is a diagram showing a structure in which the feedback signal is processed by the display driving circuit 26 shown in FIG. The light sensor 28 includes a red light sensor 281, a green light sensor 282, and a blue light sensor 283, and can detect the luminances of red light, green light, and blue light from the light source, respectively. The feedback signal generated by the optical sensor 28 is an analog signal, and the analog / digital converter (ADC) 30 converts this feedback signal into a digital signal. The digital signal includes luminance parameters A, B, and C detected from red light, green light, and blue light. The display drive circuit 26 includes three data paths 261 to 263 for red light, green light, and blue light. Each path receives the red light, green light, and blue light data of the video signal 29, and displays the data. Used to drive the red, green and blue regions of module 21. The display driving circuit 26 includes a calculator 264. The calculator 264 converts the digital signal parameters A, B, and C into luminance and color temperature gain values α, β, and γ, and converts the data of the video signal 29 into data. Used to update. The calculator 264 records a transformation matrix (Equation 9), which can be obtained by the following steps 200-240.

  Step 200: Assume that the preset tristimulus values are X, Y, and Z.

そのうち、Ｄ１１〜Ｄ３３及びＣ１１〜Ｃ３３は、変換係数であり、Ｏｆｆｓｅｔｘ〜Ｏｆｆｓｅｔｚ及びＯｆｆｓｅｔＡ〜ＯｆｆｓｅｔＣは、変換定数である。

Among them, D11 to D33 and C11 to C33 are conversion coefficients, and Offsetx to Offsetset and OffsetA to OffsetC are conversion constants.

  Step 201: If the gain values α, β, and γ are all 1 on the screen of all black, all red, all green, and all blue, the luminance parameter of the light source 22 detected by the light sensor 28 is as follows. It becomes.

All black: A0, B0, C0
All red: A1, B1, C1
All green: A2, B2, C2
All blue: A3, B3, C3
Further, the tristimulus values of the display module 21 detected by the color detector are as follows.

All black: X0, Y0, Z0
All red: X1, Y1, Z1
All green: X2, Y2, Z2
All blue: X3, Y3, Z3
Step 220: X0, Y0, and Z0 are all 0 on the all black screen.

数３より次の数４が得られる。

From Equation 3, the following Equation 4 is obtained.

また、数４を数２に代入すれば、次の数５が得られる。

Further, if the equation 4 is substituted into the equation 2, the following equation 5 is obtained.

ステップ２３０：全赤、全緑、全青の画面のパラメータを数５に代入することにより変換係数Ｃ１１〜Ｃ３３を次のように算出することができる。

Step 230: The conversion coefficients C11 to C33 can be calculated as follows by substituting the parameters of the screen of all red, all green, and all blue into Equation 5.

ステップ２４０：映像の輝度と色温度を調整するための利得値α、β、γの変換マトリックスが次のように得られる。

Step 240: A conversion matrix of gain values α, β, and γ for adjusting the luminance and color temperature of the image is obtained as follows.

図５を参照する。図５は、輝度と色温度を制御可能な本発明の表示装置２０の第三の実施例を示す図である。第三の実施例において、光センサー２８は、表示駆動回路２６及び光源駆動回路２４に接続されるので、表示駆動回路２６は、光センサー２８により生成されたフィードバックＦＢに基づいて映像信号２９のデータを更新することにより、表示モジュール１１の映像の輝度と色温度を調整することができる。同様に、光源駆動回路２４は、光センサー２８により生成されたフィードバックＦＢに基づいて光源２２の発光輝度を調整することもできる。光センサー２８が表示駆動回路２６により形成されたフィードバック構造に接続される利点は、表示装置２０の光源のタイプに係らず、表示駆動回路２６により表示装置２０の映像の輝度と色温度を補償することができるにある。また、光源２２自身の輝度が不安定である問題も実際に依然存在するので、光センサー２８が光源駆動回路２６により形成されたフィードバック構造に接続されることは、光源２２の輝度を安定させることもできる。さらに、光源２２が発光ダイオードモジュールである場合、光源駆動回路２６により、光源２２の赤色の光、緑色の光及び青色の光の輝度を個別に補償することもできる。本実施例において、光源２２が冷陰極管である場合、表示駆動回路２６を調整することにより、映像の赤色、緑色及び青色の画素の輝度を個別に補償することができる。

Please refer to FIG. FIG. 5 is a diagram showing a third embodiment of the display device 20 of the present invention capable of controlling luminance and color temperature. In the third embodiment, since the optical sensor 28 is connected to the display driving circuit 26 and the light source driving circuit 24, the display driving circuit 26 uses the feedback FB generated by the optical sensor 28 as the data of the video signal 29. Can be adjusted to adjust the brightness and color temperature of the image of the display module 11. Similarly, the light source driving circuit 24 can adjust the light emission luminance of the light source 22 based on the feedback FB generated by the optical sensor 28. The advantage that the optical sensor 28 is connected to the feedback structure formed by the display drive circuit 26 is that the display drive circuit 26 compensates for the luminance and color temperature of the image of the display device 20 regardless of the type of light source of the display device 20. It can be. In addition, since the problem that the luminance of the light source 22 itself is unstable still exists, the fact that the optical sensor 28 is connected to the feedback structure formed by the light source driving circuit 26 stabilizes the luminance of the light source 22. You can also. Furthermore, when the light source 22 is a light emitting diode module, the light source driving circuit 26 can individually compensate the luminance of the red light, the green light, and the blue light of the light source 22. In this embodiment, when the light source 22 is a cold cathode tube, the brightness of the red, green and blue pixels of the image can be individually compensated by adjusting the display driving circuit 26.

  Please refer to FIG. FIG. 6 is a diagram showing a fourth embodiment of the display device 20 of the present invention capable of controlling luminance and color temperature. In the fourth embodiment, the optical sensor 28 is installed on the display surface of the display module 21 and is used to detect the luminance and color temperature of the video generated by the display module 21. The optical sensor 28 is connected to the display drive circuit 26 and the light source drive circuit 26 and is used to detect the luminance and color temperature of the video generated by the display module 21. The display driving circuit 26 can update the data of the video signal 29 by calculating the gain value based on the feedback signal FB. In addition, the light driving circuit 26 can adjust the light emission luminance of the light source 22 based on the feedback signal FB.

  Therefore, a display device according to an embodiment of the present invention capable of controlling luminance and color temperature includes a display module, a light source, a light source driving circuit, a display driving circuit, and an optical sensor. The optical sensor is installed around the light source and is used to detect the luminance and color temperature of the light source. The optical sensor is connected to the display drive circuit, and generates a feedback signal to the display drive circuit based on the luminance and color temperature of the light source. Since the display driving circuit receives the video signal and drives the display module to display the video on the display module, the display driving circuit updates the video signal data based on the feedback signal, and the luminance and color of the video. The purpose of adjusting the temperature can be achieved. The light sensor may be connected to a light source driving circuit. In this case, the light source driving circuit adjusts the light emission luminance of the light source based on the feedback signal generated by the light sensor, and stabilizes the luminance of the light source. Can do. Compensating the luminance and color temperature of the image by the display driving circuit can be applied to any type of light source, and can be individually compensated for the luminance of the red, green, and blue pixels of the image.

  Although the present invention has been disclosed above based on the preferred embodiments described above, the preferred embodiments described above are not intended to limit the present invention, and those skilled in the art will recognize the spirit and scope of the present invention. As long as the invention does not leave, minor changes and color changes can be made to the present invention. Therefore, the protection scope of the present invention is based on what is defined in the appended claims. In addition, any embodiment or claim of the present invention need not achieve all of the objects, advantages or features disclosed in the present invention. The abstract part and the title of the invention are only for helping the search of patent documents, and do not limit the scope of rights of the present invention.

It is a figure which shows the conventional display apparatus which has a brightness control function. It is a figure which shows the 1st Example of the display apparatus of this invention which can control a brightness | luminance and color temperature. It is a figure which shows the 2nd Example of the display apparatus of this invention which can control a brightness | luminance and color temperature. FIG. 3 is a diagram showing a structure for processing a feedback signal by the display driving circuit shown in FIG. 2. It is a figure which shows the 3rd Example of the display apparatus of this invention which can control a brightness | luminance and color temperature. It is a figure which shows the 4th Example of the display apparatus of this invention which can control a brightness | luminance and color temperature.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Display apparatus 11 Display module 12 Light source 14 Light source drive circuit 16 Display drive circuit 18 Optical sensor 20 Display apparatus 21 of this invention Display module 22 Light source 24 Light source drive circuit 26 Display drive circuit 28 Optical sensor 29 Video signal 30 Analog-digital converter 261 Red Light data path 262 Green light data path 263 Blue light data path 264 Calculator 281 Red light sensor 282 Green light sensor 283 Blue light sensor

Claims (20)

A display device capable of controlling brightness and color temperature,
A display module;
A light source proximate to the display module;
An optical sensor proximate to the light source, detecting the light source and generating at least one feedback signal;
A display driving circuit connected to the optical sensor, receiving a video signal, driving the display module to display a video, and adjusting data of the video signal based on the feedback signal;
including,
Display device. A light source driving circuit connected to the light sensor, driving the light source, and adjusting a luminance of the light source based on the feedback signal;
The display device according to claim 1. The light source includes a cold cathode fluorescent lamp (CCFL) or a light emitting diode (LED),
The display device according to claim 1. An analog-to-digital converter (ADC) connected between the photosensor and the display driving circuit and converting a feedback signal generated by the photosensor into a digital signal;
The display device according to claim 1. The display driving circuit includes a calculator that is connected to the analog-digital converter and converts the digital signal into at least one gain value for adjusting the video signal.
The display device according to claim 4. The light sensor includes a red light sensor, a green light sensor, and a blue light sensor.
The display device according to claim 1. A control method for controlling brightness and color temperature of a display device,
A detection step for detecting brightness and color temperature of the display device and generating at least one feedback signal;
An adjustment step of updating video signal data of the display device based on the feedback signal and adjusting luminance and color temperature of the video displayed by the display device;
including,
Control method. Adjusting the brightness of the light source of the display device based on the feedback signal;
The control method according to claim 7. Converting the feedback signal into a digital signal;
The control method according to claim 7. Converting the digital signal into at least one gain value for adjusting the video signal;
The control method according to claim 7. In the detection step, the brightness and color temperature of the red light, green light and blue light of the light source are detected.
The control method according to claim 7. The at least one feedback signal includes three feedback signals;
In the adjustment step, based on the three feedback signals, update the red light, green light and blue light video signals of the display device, respectively.
The control method according to claim 11. Further comprising individually adjusting brightness of red light, green light and blue light of the light source based on the feedback signal;
The control method according to claim 11. A display device capable of controlling brightness and color temperature,
A display module used to display an image and having a display surface;
An optical sensor installed on the display surface for detecting the brightness and color temperature of the image and generating at least one feedback signal;
A display module driving circuit connected to the optical sensor, receiving a video signal, driving the display module to display the video, and adjusting data of the video signal based on the feedback signal;
including,
Display device. A light source proximate to the display module;
The display device according to claim 14. A light source driving circuit that is used to drive the light source, is connected to the optical sensor, and adjusts the luminance of the light source based on the feedback signal;
The display device according to claim 15. The light source includes a cold cathode fluorescent lamp (CCFL) or a light emitting diode (LED),
The display device according to claim 15. An analog-to-digital converter (ADC) connected between the photosensor and the display module driving circuit and converting a feedback signal generated by the photosensor into a digital signal;
The display device according to claim 14. The display driving circuit includes a calculator that is connected to the analog-digital converter and converts the digital signal into at least one gain value for adjusting the video signal.
The display device according to claim 18. The display device includes a liquid crystal display device or a plasma display device,
The display device according to claim 14.

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